Creeping bentgrass (Agrostis stolonifera) is a turfgrass species established on golf course surfaces but is criticized for high irrigation requirements. While genetic variation for water deficit stress tolerance exists between cultivars, the lack of defined critical soil water potential thresholds (Soil crit) for this species complicates precise irrigation strategies and benchmarks for plant breeding. This study utilized a polyethylene glycol (PEG) infused agar-based system to simulate water potential reductions and determine the water potential threshold (crit) for seedling root elongation. Creeping bentgrass cv Pure distinction seedlings were subjected to six water potentials ({Psi}) ranging from -0.36 MPa (no PEG applied) to -1.72 MPa. Daily digital imaging was used to measure root elongation over 5 days. Results across two experiments demonstrated that creeping bentgrass seedlings are highly sensitive to mild reductions in . A reduction to -0.61 MPa significantly decreased root length and growth rates by over 50% compared to the control. Regression models predicted that a crit of approximately -0.45 MPa reduced daily root growth by 25%, while upwards of -1.0 MPa resulted in a 75% reduction of seedlings root growth. Furthermore, seedlings exposed to the lowest water potentials were predicted to require an additional 30 to 46 days to achieve the same root length as control plants. These findings establish specific crit benchmarks for water deficit stress tolerance using a PEG-based system to induce dehydration. These methods can be used in breeding programs, and will help develop more accurate experiments examining the mechanisms of water deficit stress tolerance.
Petrella, D., Morrow, M., Nangle, E., Sessoms, F. J.
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